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- Gabor Perlaki, Gergely Orsi, Attila Schwarcz, Peter Bodi, Eniko Plozer, Kristof Biczo, Mihaly Aradi, Tamas Doczi, Samuel Komoly, Laszlo Hejjel, Norbert Kovacs, and Jozsef Janszky.
- Department of Neurology, University of Pécs, Pécs, Hungary; Pécs Diagnostic Centre, Pécs, Hungary; MTA-PTE Clinical Neuroscience MR Research Group, Pécs, Hungary.
- J. Neurol. Sci. 2015 Feb 15;349(1-2):202-8.
BackgroundOur goal was to identify brain structures responsible for pain-related autonomic changes by the correlation of simultaneously acquired functional magnetic resonance imaging (fMRI) and electrocardiogram (ECG) data.MethodsEighteen healthy men (age: 22.89 ± 1.96) were involved. Painful sensation was evoked by heat. Simultaneously recorded brain fMRI and ECG data during pain were compared to data acquired during a non-painful heat sensation. From the ECG data, time- and frequency domain parameters of heart rate variability (HRV) were extracted.ResultsWe found that: (1) among the common elements of both pain network and central autonomic network (CAN) only the medial prefrontal frontal cortex (MPFC) showed significant correlation with HRV; (2) the parasympathetic response to the painful stimuli showed a positive, while the sympathetic response a negative association with pain related BOLD-signal change observed in MPFC; (3) time domain parameters of HRV were negatively associated with MPFC activation.ConclusionsThe novelty of our study-compared to previous ECG-fMRI studies-is that we used pain as stimulus and investigated both frequency- and time-domain parameters of HRV. Compared to other stimuli used in earlier studies to activate the CAN, pain sensation can be standardized easier and might allow us to better understand the functional organization of CAN. The results of the current ECG-fMRI study may have direct clinical relevance in understanding the pathomechanisms of several clinical conditions.PerspectiveThere are some simultaneous ECG-fMRI and ECG-Positron Emission Tomography (PET) studies, but limited information is available about the pain-related brain function-HRV relations. The novelty of our study is that we used pain as stimulus to activate the central autonomic network and investigated both frequency- and time-domain parameters of HRV.Copyright © 2015 Elsevier B.V. All rights reserved.
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